Compiling static library for Google Native Client using SCons

Question

I'm working on a few multi platform projects that all depend on common framework. I want to add support for Google Native-Client (NaCl). The way I aproached the problem is first to compile the framework as static library (this is how I've been doing it on all other platforms).

I have to say that I have never used SCons before. I think I start grasping it. Starting from a build.scons from a tutorial I can get some code compiling and linking. Now I would want to skip the linking process but seems like the nacl_env was never intended to compile static libraries.

Reading the SCons help didn't help me much since the Library node is missing from the nacl_env.

I don't think I understand SCons enough to write the whole build process from scratch so I was hopping to not have to do so.

1. Am I approaching the problem correctly?

2. Any tips or sample nacl static libs, build using SCons?

Answer 1

Ok, what I did is way more trickery than what you probably need.

I wanted my static library to handle the initialization steps of the NaCl module, and then call some project-specific function.

I ended up turning my whole framework and the contents of the built-in libppapi_cpp.a into a single .o file, and then that into a single .a file, a static library.

I needed a single .o file, because otherwise I would run into dependency problems releated to initialization, I could not solve.

build_lib.sh (framework):

#!/bin/bash -e

SDK="/home/kalmi/ik/nacl_sdk/pepper_15"

function create_allIn_a {
TMPDIR="`mktemp -d`"
  echo $TMPDIR
  cp $O_FILES $TMPDIR
  pushd $TMPDIR &> /dev/null
  $AR x $LIBPPAPI_CPP_A
  $LD -Ur * -o ALL.o
  $AR rvs $OUTPUT_NAME ALL.o
  $RANLIB $OUTPUT_NAME
  popd &> /dev/null
}

./scons


BIN_BASE="$SDK/toolchain/linux_x86/bin"
LD="$BIN_BASE/i686-nacl-ld"
AR="$BIN_BASE/i686-nacl-ar"
RANLIB="$BIN_BASE/i686-nacl-ranlib"
LIBPPAPI_CPP_A="$SDK/toolchain/linux_x86_newlib/x86_64-nacl/lib32/libppapi_cpp.a"
O_FILES="`find $(pwd)/opt_x86_32 | grep .o$ | grep --invert-match my_main.o | tr "\n" " "`"
LIBDIR="../../../bin/lib/lib32"
mkdir -p $LIBDIR
if [ -f $LIBDIR/libweb2grid_framework.a ]; then
  rm $LIBDIR/libweb2grid_framework.a
fi
OUTPUT_NAME="`readlink -m $LIBDIR/libweb2grid_framework.a`"
create_allIn_a


BIN_BASE="$SDK/toolchain/linux_x86/bin"
LD="$BIN_BASE/x86_64-nacl-ld"
AR="$BIN_BASE/x86_64-nacl-ar"
RANLIB="$BIN_BASE/x86_64-nacl-ranlib"
LIBPPAPI_CPP_A="$SDK/toolchain/linux_x86_newlib/x86_64-nacl/lib64/libppapi_cpp.a"
O_FILES="`find $(pwd)/opt_x86_64 | grep .o$ | grep --invert-match my_main.o | tr "\n" " "`"
LIBDIR="../../../bin/lib/lib64"
mkdir -p $LIBDIR
if [ -f $LIBDIR/libweb2grid_framework.a ]; then
  rm $LIBDIR/libweb2grid_framework.a
fi
OUTPUT_NAME="`readlink -m $LIBDIR/libweb2grid_framework.a`"
create_allIn_a

 ./scons -c

The my_main.o file is excluded from the static library, because that file contains the function that is to be provided by the project that uses this framework.

The build.scons file for the framework is truly ordinary.

build.scons (for some project that uses this framework):

#! -*- python -*-

#What to compile:
sources = [ 'src/something.cpp', 'src/something_helper.cpp' ]


###############################################################x

import make_nacl_env
import nacl_utils
import os

nacl_env = make_nacl_env.NaClEnvironment(
    use_c_plus_plus_libs=False,
    nacl_platform=os.getenv('NACL_TARGET_PLATFORM'))

nacl_env.Append(
    # Add a CPPPATH that enables the full-path #include directives, such as
    # #include "examples/sine_synth/sine_synth.h"
    CPPPATH=[os.path.dirname(os.path.dirname(os.path.dirname(os.getcwd())))],
    LIBS=['web2grid_framework','srpc'],
    LIBPATH=['../../../bin/lib/lib32','../../../bin/lib/lib64'],
    LINKFLAGS=['-pthread']
   )

nacl_env.AllNaClModules(sources, 'client')

Some lines worth highlighting:

• use_c_plus_plus_libs=False,
• LIBS=['web2grid_framework','srpc'],
• LIBPATH=['../../../bin/lib/lib32','../../../bin/lib/lib64'],
• LINKFLAGS=['-pthread']

I am not saying that this is a clean method, but it gets the job done.

Answer 2

So, there's two questions here
1. Using SCONS:
NaCl uses SCONS for it's examples, simply to help compiling of the examples easier. In reality, SCONS simply directs to the GCC/G++ compilers in the SDK build directories. (SCONS will take the input scripts, and create the final param string to send to GCC)

GCC is a common compiler, and is well documented on the net : http://gcc.gnu.org/

How you integrate NaCl compilation into your work-flow is up to you (ie you're not forced to use SCONS).

For instance, if you'd like to go to GCC directly, you can simply call :
<path to bin>/x86_64-nacl-gcc -m64 -o test.nexe main.c

For a more detailed look into how to compile NaCl modules, please read the documentation @ gonacl.com on compiling which will detail how to compile with and without SCONS.

2.Compilng Static libs with GCC
Here is an example : http://www.adp-gmbh.ch/cpp/gcc/create_lib.html

~Main